TWM454664U - Wireless power transfer lamp structure - Google Patents

Description

Lamp structure for wireless power transmission

The present invention relates to a luminaire structure for wireless power transmission, in particular to a luminaire structure that can supply power required by a light source through wireless power transmission and has modular optical components.

Conventionally, the power used in the luminaire structure is usually by using a power cord or a power outlet to direct the power of the mains or power generating device to the luminaire structure to serve as a source of electrical power for the light source of the luminaire structure. However, such power configurations are often limited by structures. For example, if it is a water tank structure, the water in the water tank may cause damage to the shop or a power failure, or it may not be possible to arrange the wires; or, as with other furniture structures, the structure must be broken in order to arrange the wires. Things. In addition, the general luminaires, especially the decorative luminaires, are partially integrated with the lamp body itself, and have no modular interface to provide users with various conditions and needs, such as festivals or different seasons. To replace the decorative shape. Therefore, this creation is based on the lack of conventional lamps.

The present invention relates to a luminaire structure for wireless power transmission, the main purpose of which is to provide a luminaire structure that does not require an electrical connection line and can perform electrical energy transmission, so that power can be transmitted to the luminaire structure through wireless transmission, and The luminaire structure has an optical component Improve the aesthetic effect and functionality of the luminaire structure.

The second purpose of the present luminaire structure for wireless power transmission is to provide a modular optical component such that the optical components in the luminaire structure can be replaced as needed by the modular mechanical coupling mechanism.

A further object of the present luminaire structure for wireless power transmission is to provide a luminaire structure that does not require an electrical connection line and can transmit electrical energy through a resonant energy type, and is used in a water tank, and the light source generated by the luminaire structure and the optical The component can enhance the lighting effect or decorative effect of the water tank.

The present invention relates to a luminaire structure for wireless power transmission, which comprises a lamp body, which comprises a illuminating component and a first light transmissive portion permeable to light, the illuminating component being disposed inside the lamp body and corresponding to the lamp a light transmissive portion; an optical member comprising a light transmissive second light transmitting portion and disposed on the lamp body; a receiver receiving the resonant energy of the wireless power type transmission An electrical device that converts the resonant energy into electricity, and electrically connects the light-emitting elements in the lamp body and supplies the power required by the light-emitting elements; and an emitter that cooperates with the receiver and converts the power into resonance An electrical device that transmits the resonant energy through a wireless power mode; wherein the first light transmitting portion of the lamp body is a light transmissive structure formed by a portion of the light body corresponding to the light emitting device And the second light transmitting portion of the optical member is a light transmitting structure formed by a portion of the optical member, and the second light transmitting portion corresponds to the first light transmitting portion of the lamp body.

In the foregoing embodiments, the lamp system further includes a first connecting portion; and the optical component further includes a second connecting portion, the second The light transmitting portion is corresponding to the first light transmitting portion of the lamp body, and the second connecting portion is correspondingly mechanically coupled to the first connecting portion of the lamp body, and the first connecting portion is mechanically coupled to the second connecting portion A detachable structure. The first light transmitting portion of the lamp body is disposed at the first connecting portion, and the second light transmitting portion of the optical member is disposed at the second connecting portion.

In addition, the first connecting portion may further include a columnar body formed at a top end portion of the lamp body, and the first light transmitting portion may be formed in the columnar body and corresponding to the light emitting element; The second connecting portion further includes a connecting groove corresponding to the columnar body that can engage the first connecting portion and formed at the bottom end portion of the optical member, and the second light transmitting portion is formed on the second light transmitting portion The second connecting portion top end portion.

In the above embodiment, the first light transmitting portion and the first connecting portion of the lamp body are formed on the upper portion of the lamp body, and the first connecting portion further includes a columnar body, and the columnar system is formed on the a first light-transmitting portion is formed around the columnar body, and the light-emitting element corresponds to the first light-transmitting portion; and the second connecting portion of the optical member further includes a connecting groove The connecting groove corresponds to a columnar body that can engage the first connecting portion and is formed at a bottom end portion of the optical member, and the second light transmitting portion is formed around the second connecting portion, and In a state in which the connecting portion and the second connecting portion are mechanically coupled to each other, the first light transmitting portion corresponds to the second light transmitting portion. The light-emitting element in the lamp body comprises a plurality of light-emitting diodes, and the light-emitting diode systems surround the first connecting portion and are disposed in the lamp body to correspond to the first light-transmitting portion.

In the foregoing embodiment, the receiver is disposed inside the lamp body and electrically connects the light emitting element. Wherein, the lamp body further comprises an upper cover and a lower cover, wherein the upper cover is disposed on the top end of the lower cover a waterproof hollow box structure, wherein the first connecting portion and the first light transmitting portion are formed on the upper cover; and the light emitting element and the receiver are disposed in the upper cover and the lower cover, and the light is emitted The component corresponds to the first light transmitting portion in the upper cover.

In addition, the lamp body may further include an inner box having a hollow structure of a through-hole post, the first connecting portion includes a columnar body and the second connecting portion includes a connecting groove. The inner box is disposed between the upper cover and the lower cover, the through hole column is a centrally penetrating tubular structure extending upward from the top end of the inner box and formed by the position of the columnar body of the upper cover, and the lamp body The light-emitting element is correspondingly disposed in the inner box, and the light source of the light-emitting element passes through the through-hole column and penetrates the upper cover from the first light-transmitting portion.

The luminaire structure of the present invention for wireless power transmission further includes a water tank structure, the lamp body, the optical member and the receiver are disposed in the structure, and the transmitter is disposed at the receiver to receive the emission The device emits a position within the effective range of the resonant energy.

In the luminaire structure of the present invention for wireless power transmission, the second light transmitting portion forms an optical structure formed by a lens structure. The second light transmitting portion may be selected as a concentrating lens structure and an optical structure in an astigmatic lens structure.

In the luminaire structure of the present invention for wireless power transmission, the second light transmitting portion of the optical member is a hollow portion that can transmit light.

In the luminaire structure of the present invention for wireless power transmission, the optical member is entirely composed of a light-transmitting material.

In the foregoing luminaire structure of the wireless power transmission of the present invention, the optical component enters The one step system includes an upper casing and a lower casing. The connecting grooves of the second connecting portion are respectively formed on the bottom of the lower casing, and the upper casing and the lower casing form a clamshell body. The first connecting portion further includes a columnar body formed at a top end portion of the lamp body, the first light transmitting portion being formed in the columnar body and corresponding to the light emitting element; The connecting portion further includes a connecting groove formed at a bottom end portion of the optical member, the second transparent portion is formed at a top end portion of the second connecting portion, and the connecting groove corresponds to Engaging the columnar body of the first connecting portion to form a detachable mechanical coupling structure.

Further, the light emitting element is provided in the columnar body.

Furthermore, the upper casing and the lower casing may form a clamshell body that is opened at a specific angle, and the second light transmitting portion of the optical component is between the upper casing and the lower casing. The space is formed. The first member and the second member are pivotally connected to each other.

In the luminaire structure of the present invention, the optical component further includes a receiving groove formed in a groove-like structure at the top end of the optical member, and the second connecting portion is formed on the illuminating structure. The bottom of the optical member. Wherein, the accommodating groove of the optical member is used for placing a plant or a decoration.

In addition, the first connecting portion further includes a columnar body formed at a top end portion of the lamp body, the first light transmitting portion being formed in the columnar body and corresponding to the light emitting element; The connecting portion further includes a connecting groove formed at a bottom end portion of the optical member, and the connecting groove is adapted to form a detachable mechanical coupling corresponding to the columnar body of the first connecting portion. Connected structure.

In the foregoing lamp structure of the present wireless power transmission, the first of the lamp body The light transmitting portion and the first connecting portion are formed at a top end portion of the lamp body, the first connecting portion includes a fixing groove, and the second connecting portion is a columnar body structure, the fixing groove is from the lamp body a concave structure recessed downwardly from the top end portion, wherein the first light transmitting portion is disposed in a bottom surface of the fixing groove of the first connecting portion, and an inner diameter of the fixing groove of the first connecting portion is corresponding to the second optical member The outer diameter of the connecting portion corresponds to the second light transmitting portion, and the fixing groove of the first connecting portion and the second connecting portion form a mutual mechanical coupling mechanism. The fixing groove of the first connecting portion may be a column-shaped groove structure and includes a plurality of fixing ribs, and the fixing ribs are ribs protruding in the axial direction and protruding on the inner surface of the inner ring of the fixing groove The structure, the inner diameter formed by the fixing ribs forms a tight fit relationship with the outer diameter of the second connecting portion.

In the luminaire structure of the present invention for wireless power transmission, the second light transmitting portion of the optical member has a glitter distribution therein.

In the luminaire structure of the present invention for wireless power transmission, a bubble is distributed in the second light transmitting portion of the optical member.

In the luminaire structure of the present invention, the receiver further includes a receiving circuit and a rectifying circuit, the receiving circuit includes at least one resonant circuit of the receiving coil, and the receiving circuit is corresponding to the transmitting of the transmitter The circuit can receive the resonant signal emitted by the transmitting coil of the transmitting circuit and correspondingly convert it into a power output, the rectifier circuit is an electrical signal adjusting circuit, and is used for converting the power output of the receiving circuit into the light emitting component The form of electricity required.

In the foregoing luminaire structure of the present wireless power transmission, the transmitter further includes a power source, a resonant emission driving circuit, and a transmitting circuit. And the power source is a power supply source and supplies power required for operation of the transmitter, the resonant emission driving circuit is an electrical signal conditioning circuit, and converts part of the power provided by the power source into an electrical signal output to the transmitting And a transmitting circuit that includes at least one transmitting coil that converts the electrical signal generated by the resonant transmitting driving circuit into resonant energy and emits it outward. Wherein the transmitter further includes an emitter member having a bottom cover at the bottom and constituting an emitter receiving portion; and the emitter receiving portion is a hollow formed in the emitter member The bottom of the transmitter housing is closed by the bottom cover, and the power source, the resonant emission driving circuit and the transmitting circuit are disposed in the transmitter housing of the transmitter component. Moreover, the power source of the transmitter is an AC power line, and the power source extends outward and is exposed outside the transmitter member, and is electrically connected to a power system.

In addition, the luminaire structure of the present wireless power transmission may further include a structure, the transmitter component is disposed in the component of the structure, and the receiver is disposed in an effective range of the resonant energy of the emitter of the transmitter. And the lamp body, the optical member, and the receiver are disposed in the structure.

In the foregoing luminaire structure of the present wireless power transmission, the receiver, the transmitter and the transmitter in various embodiments may conform to the Qi standard of the Wireless Power Consortium.

In order to familiarize the person skilled in the art with the purpose, features and effects of the present invention, the following specific embodiments, together with the accompanying drawings, are described in detail below.

In order to make this creation more clearly understood, a specific embodiment will be described below as a description of the present creation.

The luminaire structure of the present wireless power transmission is mainly a luminaire structure capable of receiving required power through a wireless transmission power transmission mode, and the wireless power transmission system transmits electrical energy by using a resonance characteristic of an electrical signal, and is used for Provides the power required to operate the luminaire structure of the authored wireless power transmission. 1 is a perspective assembled view showing an embodiment of a luminaire structure of the present wireless power transmission; FIG. 2 is a perspective exploded view showing the embodiment of the present FIG. 1; and FIG. 3 is a diagram showing an implementation of the luminaire structure of the present wireless power transmission. An electrical correlation diagram of a local component. Referring to FIG. 1 , FIG. 2 and FIG. 3 , the luminaire structure of the present wireless power transmission system comprises a lamp body ( 1 ), an optical component ( 2 ), a receiver ( 3 ) and a transmitter ( 4 ). Wherein, the lamp body (1) is internally provided with a light-emitting element (11), and the lamp body (1) is at least partially transparent, so that the light of the light-emitting element (11) can be passed through the lamp body (1). a portion of the light transmissive; the optical member (2) is at least partially transparent to one of the members, and corresponds to the position of the light-emitting element (11), and is detachably disposed on the lamp body (1) The receiver (3) is an electrical device capable of receiving the resonant energy of the wireless power type transmission and converting the resonant energy into electric power, and electrically connecting the light emitting element (11) in the lamp body (1) The power required to supply the light-emitting element (11); and the transmitter (4) is an electrical device that cooperates with the receiver (3) and converts power into resonant energy, and is via a wireless power mode. Transmitting the resonant energy, and when the receiver (3) is within the effective range of the resonant energy emitted by the transmitter (4), the receiver (3) can receive the harmonic Resonance energy and converts the energy power output.

The lamp body (1), the optical member (2) and the receiver (3) may be disposed on a structure (100), and the transmitter (4) is based on the luminaire structure of the present wireless power transmission. When the receiver (3) is disposed near the structure (100) such that the receiver (3) is within an effective range in which the transmitter (4) emits resonance energy, the receiver (3) can receive the resonance energy and can The energy is converted into an electrical output, and the power required for the operation of the illuminating element (11) is provided, so that the light emitted by the illuminating element (11) can be partially transmitted through the permeable portion of the optical member (2).

Referring again to FIG. 3, the receiver (3) further includes a receiving circuit (31) and a rectifying circuit (32), wherein the receiving circuit (31) is a resonant circuit including at least one receiving coil (311). And the receiving circuit (31) is corresponding to the transmitting circuit (41) of the transmitter (4) and can receive the resonant signal emitted by the transmitting coil (411) of the transmitting circuit (41) and correspondingly converted into a power output. The rectifier circuit (32) is an electrical signal conditioning circuit for converting the power output of the receiving circuit (31) into a power form required by the light emitting element (11) and the rectifier circuit (32) is electrically connected. The light-emitting element (11) supplies power required for the operation of the light-emitting element (11). Furthermore, the aforementioned transmitter (4) further includes a power source (42), a resonant emission driving circuit (43), and a transmitting circuit (41), and the power source (42) is a power supply source and supplies the transmitting device. The (4) operates the required power, and the resonant emission driving circuit (43) is an electrical signal conditioning circuit, and converts part of the power provided by the power source (42) into an electrical signal output to the transmitting circuit (41). The transmitting circuit (41) includes at least one transmitting coil (411) that converts the electrical signal generated by the resonant transmitting driving circuit (43) into resonant energy and emits it outward.

4 is a diagram showing a structure of a luminaire for wireless power transmission of the present invention. 3 is a cross-sectional view showing a combined state of the elements shown in FIG. 4; and FIG. 6 is a cross-sectional view showing an exploded state of the element shown in FIG. Referring to FIG. 4, FIG. 5 and FIG. 6, in the luminaire structure of the present invention, the lamp body (1) further includes a first light transmitting portion (12) and a first connecting portion (13). And the first light transmitting portion (12) is a light transmitting material corresponding to a portion of the lamp body (1) corresponding to a portion of the light emitting element (11), such that the light emitting element (11) emits The light may be penetrated through the first light transmitting portion (12); and the optical member (2) further includes a second light transmitting portion (21) and a second connecting portion (22), the second through The light portion (21) is a light transmissive structure formed by a portion of the optical member (2), and the second light transmitting portion (21) corresponds to the first light transmitting portion of the lamp body (1). (12) The second connecting portion (22) is correspondingly coupled to the first connecting portion (13) of the lamp body (1). Therefore, when the first connecting portion (13) and the second connecting portion (22) are in a mechanically coupled state, light emitted by the light emitting element (11) passes through the first light transmitting portion (12). The second light transmitting portion (21) penetrates and the optical member (2) is fixed to the lamp body (1).

In the luminaire structure of the present wireless power transmission device, the first light transmitting portion (12) of the lamp body (1) is disposed at the first connecting portion (13), and the first of the optical members (2) The two light transmitting portions (21) are disposed at the second connecting portion (22). Therefore, when the first connecting portion (13) and the second connecting portion (22) are mechanically coupled to each other, the first light transmitting portion (12) corresponds to the second light transmitting portion (21).

Furthermore, in the above embodiment, the first connecting portion (13) further includes a columnar body (131) formed on a top end portion of the lamp body (1). The light portion (12) is formed in the columnar body (131) and should The light emitting element (11); and the second connecting portion (22) further includes a connecting groove (221) corresponding to the column body capable of engaging the first connecting portion (13) ( 131) is formed at a bottom end portion of the optical member (2), and the second light transmitting portion (21) is formed at a top end portion of the second connecting portion (22). Therefore, when the connecting groove (221) of the second connecting portion (22) is sleeved on the columnar body (131) of the first connecting portion (13) and mechanically coupled to each other, the optical member (2) will Fixed to the top end of the lamp body (1), and the first light transmitting portion (12) in the columnar body (131) of the first connecting portion (13) corresponds to the connecting concave portion of the second connecting portion (22) a second light transmitting portion (21) at a top end of the groove (221), such that light emitted by the light emitting element (11) of the lamp body (1) passes through the first light transmitting portion (12) and is transmitted from the second light transmitting portion The part (21) penetrates out.

Referring again to FIGS. 4, 5, and 6, in the optical member (2) described above, the second light transmitting portion (21) may form a light collecting optical structure. Therefore, when the light emitted by the light-emitting element (11) of the lamp body (1) passes through the first light-transmitting portion (12) and penetrates from the second light-transmitting portion (21), the light will be The effect of being concentrated and forming a projected light source.

Further, in the optical member (2) described above, the second light transmitting portion (21) may also form an astigmatic optical structure. Therefore, when the light emitted by the light-emitting element (11) of the lamp body (1) passes through the first light-transmitting portion (12) and penetrates from the second light-transmitting portion (21), the light will be An astigmatism effect is formed from the optical member (2).

In the foregoing embodiment, the second light transmitting portion (21) in the optical member (2) may be a lens structure, and thus an optical effect of collecting light or astigmatism may be formed.

In the foregoing embodiment, the second light transmitting portion (21) in the optical member (2) A hollow portion can be attached, so that the second light transmitting portion (21) can transmit light.

In the foregoing embodiment, the optical member (2) may be entirely composed of a light transmissive material.

In the luminaire structure of the present invention, the receiver (3) is disposed inside the lamp body (1), and electrically connects the light-emitting element (11), so that the power output by the receiver (3) can be It is required to supply the light-emitting element (11) for operation.

The light-emitting element (11) may be a light source formed by a light-emitting diode, and the light-emitting element (11) is disposed in the columnar body (131) of the first connecting portion (13).

Figure 7 is a perspective exploded view showing a partial component of an embodiment of the luminaire structure of the present wireless power transmission. Referring to FIG. 7 and referring to FIG. 1 and FIG. 3 again, in the foregoing lamp structure of the present wireless power transmission, the lamp body (1) is further composed of an upper cover (14) and a lower cover (15). Hollow box structure. The upper cover (14) is disposed at the top end of the lower cover (15) and constitutes a waterproof hollow box structure, and the first connecting portion (13) and the first light transmitting portion (12) are formed on the upper cover. (14); and the light-emitting element (11) is disposed in the upper cover (14) and the lower cover (15) and corresponds to the first light-transmitting portion (12) in the upper cover (14).

Figure 8 is a perspective assembled view showing the state of use of an embodiment of the luminaire structure of the present wireless power transmission. Referring to FIG. 8, and referring again to FIG. 1, FIG. 3 and FIG. 7, the structure (100) in the foregoing embodiment of FIG. 1 may be a water tank structure, as shown in FIG. Wherein, the lamp body (1), the optical member (2) and the receiver (3) are disposed in the structure (100), and the transmitter (4) is disposed at the receiver (3) for receiving The hair The emitter (4) emits a position within the effective range of the resonant energy. Therefore, when the receiver (3) is placed inside the structure (100) and within the effective range in which the transmitter (4) emits resonance energy, the receiver (3) can receive the resonance energy and convert For the power supply to the light-emitting element (11) in the lamp body (1), the light generated by the light-emitting element (11) passes through the first light-transmitting portion (12) and penetrates the upper cover (14). The light source required for providing illumination or decorative effect in the structure (100); and the sealed and waterproof structure formed by the upper cover (14) and the lower cover (15) can be protected from being disposed on the upper cover (14) The light-emitting element (11) in the lower cover (15) is not damaged by water in the structure (100).

In an embodiment of the luminaire structure of the present invention for wireless power transmission, the first connecting portion (13) includes the columnar body (131) and the second connecting portion (22) includes the connecting groove (221) And further, the lamp body (1) comprises an inner box (16) having a hollow structure with a through-hole post (161), and the inner box (16) is disposed on the upper cover ( 14) Between the lower cover (15), the through-hole post (161) extends upward from the top end of the inner casing (16) and forms a center formed by the position of the columnar body (131) of the upper cover (14) a through-tube structure, and the light-emitting elements (11) in the lamp body (1) are correspondingly disposed in the inner box (16), and the light source of the light-emitting element (11) is via the through-hole column (161) The first light transmitting portion (12) penetrates the upper cover (14).

The receiver (3) may be disposed in the waterproof structure formed by the cover (14) and the lower cover (15) of the lamp body (1), thereby protecting the receiver (3) from the structure. The water in (100) is invaded and destroyed.

9 is a perspective assembled view showing a partial component of the embodiment of the luminaire structure of the present wireless power transmission; FIG. 10 is a cross-sectional view showing a combined state of the components shown in FIG. 9; and FIG. 11 is a view showing the creation of the present invention. A cross-sectional view of the exploded state of the component shown in FIG. Referring to FIG. 9 , FIG. 10 and FIG. 11 , in the luminaire structure of the present invention, the optical component ( 2 ) further includes a first component ( 23 ) and a second component ( 24 ). The connecting grooves (221) of the second connecting portion (22) are respectively formed at the bottom of the second member (24), and the first member (23) and the second member (24) form a clamshell body.

The first member (23) and the second member (24) form a clamshell body that is opened at a specific angle.

The second light transmitting portion (21) in the optical member (2) is constituted by a space between the first member (23) and the second member (24).

The first member (23) and the second member (24) of the optical member (2) are made of a light-transmitting material and form the second light-transmitting portion (21).

In addition, the first member (23) and the second member (24) are pivotally connected to each other, and the first member (23) and the second member (24) are relatively pivotable, and further The opening and closing angle between the first member (23) and the second member (24) is adjusted.

Figure 12 is a perspective assembled view showing a partial component of the luminaire structure embodiment of the present wireless power transmission; Figure 13 is a cross-sectional view showing the combined state of the components shown in Figure 12; and Figure 14 is a view showing the creation of Figure 12 A cross-sectional view of the exploded state of the component. Referring to FIG. 12, FIG. 13, and FIG. 14, in the foregoing luminaire structure of the present wireless power transmission, and based on the optical member (2), the second light transmitting portion (21) is included, and the optical member (2) The system further includes a receiving slot (25). The accommodating groove (25) is a groove-like structure formed by the top end portion of the optical member (2), and the second connecting portion (22) is formed at the bottom of the optical member (2). Make the optics The receiving groove (25) of the top end portion of the member (2) can be used to place a plant or a decoration, and when the second connecting portion (22) of the optical member (2) and the first connecting portion of the lamp body (1) (13) When mechanically coupled to each other, the light source of the light-emitting element (11) of the lamp body (1) passes through the first light-transmitting portion (12) of the lamp body (1) and is second-passed from the optical member (2) The light department (21) diverge.

In the foregoing embodiment, the second connecting portion (22) may further include the foregoing connecting groove (221) formed at the bottom of the optical member (2); and the lamp body ( 1) The first connecting portion (13) may further include the aforementioned columnar body (131). Therefore, when the connecting groove (221) of the second connecting portion (22) of the optical member (2) and the columnar body (131) of the first connecting portion (13) of the lamp body (1) are mechanically coupled to each other, The first light transmitting portion (12) of the lamp body (1) and the second light transmitting portion (21) of the optical member (2) automatically correspond to each other, so that the light emitting element (11) of the lamp body (1) The light source is diverged from the first light transmitting portion (12) of the lamp body (1) and from the second light transmitting portion (21) of the optical member (2).

Figure 15 is a perspective assembled view showing a partial component of the luminaire structure embodiment of the present wireless power transmission; Figure 16 is a cross-sectional view showing a combined state of the components shown in Figure 15; and Figure 17 is a view showing the creation of Figure 15 A cross-sectional view of the exploded state of the component. Referring to FIG. 15 , FIG. 16 and FIG. 17 , in the lamp structure of the present invention for wireless power transmission, the optical member ( 2 ) is formed of a light transmissive material and forms the second light transmitting portion ( 21 ), and the first The connecting grooves (221) of the two connecting portions (22) are respectively formed at the bottom of the optical member (2). Therefore, when the connecting groove (221) of the second connecting portion (22) of the optical member (2) and the columnar body (131) of the first connecting portion (13) of the lamp body (1) are mechanically coupled to each other, The light source of the light-emitting element (11) of the lamp body (1) passes through the first light-transmitting portion (12) of the lamp body (1) and from the optical member (2) The second light transmitting portion (21) is diverged. Wherein, the optical member (2) forms an ornamental shape, such as an animal, a geometric shape, or the like, such that when the light source of the light-emitting element (11) is diverged from the optical member (2), the optical member (2) ) will emit light and enhance the enjoyability of the optical member (2).

Figure 18 is a perspective exploded view showing a partial component of the luminaire structure embodiment of the present invention for wireless power transmission; Figure 19 is a perspective assembled view showing the components shown in Figure 18; and Figure 20 is a view showing the components shown in Figure 19 of the present creation. Cutaway view. Referring to FIG. 18, FIG. 19 and FIG. 20, in the luminaire structure of the present invention for wireless power transmission, the first light transmitting portion (12) of the lamp body (1) and the first connecting portion (13) are formed on The upper part of the lamp body (1). The first light transmitting portion (12) is disposed around the outer ring of the first connecting portion (13), and the second light transmitting portion (21) and the second connecting portion of the optical member (2) 22) respectively corresponding to the first light transmitting portion (12) and the first connecting portion (13), the second light transmitting portion (21) is formed around the second connecting portion (22) and correspondingly a light transmitting portion (12), and in a state where the first connecting portion (13) and the second connecting portion (22) are mechanically coupled to each other, the first light transmitting portion (12) corresponds to a second through Light department (21). Therefore, when the light source emitted from the light-emitting element (11) in the lamp body (1) penetrates from the first light-transmitting portion (12), it is penetrated through the second light-transmitting portion (21). The optical member (2).

In the foregoing embodiment, the light-emitting element (11) in the lamp body (1) is composed of a plurality of light-emitting diodes (111), and the light-emitting diodes (111) surround the first connecting portion ( 13) and disposed in the lamp body (1) to correspond to the first light transmitting portion (12).

In the lamp body (1) of the foregoing embodiment, the first connecting portion (13) further includes a columnar body (131) formed on the top of the lamp body (1). An end portion, the first light transmitting portion (12) is formed around the columnar body (131), and each of the light emitting diodes (11) in the light emitting element (11) corresponds to the first light transmitting portion (12); and in the optical member (2) of the foregoing embodiment, the second connecting portion (22) further includes a connecting groove (221) corresponding to the first connection a columnar body (131) of the portion (13) is formed at a bottom end portion of the optical member (2), and the second light transmitting portion (21) is formed around the second connecting portion (22) and should be The first light transmitting portion (12). Therefore, when the connecting groove (221) of the second connecting portion (22) is sleeved on the columnar body (131) of the first connecting portion (13) and mechanically coupled to each other, the optical member (2) will Fixed to the top end of the lamp body (1), and the first light transmitting portion (12) corresponds to the second light transmitting portion (21), so that the light emitted by the light emitting element (11) of the lamp body (1) The first light transmitting portion (12) is penetrated through the first light transmitting portion (12).

In the foregoing embodiments of the present invention, the second light transmitting portion (21) of the optical member (2) is formed of a light transmissive material, and the second light transmitting portion (21) is The glittering distribution is such that when light enters the second light transmitting portion (21), the light is reflected by the glitters.

In the foregoing embodiments of the present invention, the second light transmitting portion (21) of the optical member (2) is formed of a light transmissive material, and the second light transmitting portion (21) is There is a bubble distribution therein such that when light enters the second light transmitting portion (21), the light is reflected by the bubbles.

Figure 21 is a perspective exploded view showing a partial component of the luminaire structure embodiment of the present wireless power transmission; Figure 22 is a perspective assembled view showing the components shown in Figure 21; and Figure 23 is a view showing the creation of Figure 21 A cross-sectional view of the components shown. Referring to FIG. 21, FIG. 22 and FIG. 23, the first light transmitting portion (12) of the lamp body (1) and the first connecting portion (13) are based on the embodiment of the lamp structure of the present invention. It is formed at the top end of the lamp body (1). The first connecting portion (13) includes a fixing groove (132), and the second connecting portion (22) is a columnar body structure, and the fixing groove (132) is from the top end portion of the lamp body (1) a recessed concave structure, the first light transmitting portion (12) is disposed in a bottom surface of the fixing groove (132) of the first connecting portion (13), and the fixing groove (132) of the first connecting portion (13) The inner diameter corresponds to the outer diameter of the second connecting portion (22) of the optical member (2), and the fixing groove (132) of the first connecting portion (13) and the second connecting portion (22) are formed. a mechanism that is mechanically coupled to each other, and in a state where the fixing groove (132) of the first connecting portion (13) and the second connecting portion (22) are mechanically coupled to each other, the first light transmitting portion (12) is Corresponding to the second light transmitting portion (21). Therefore, when the light source emitted from the light-emitting element (11) in the lamp body (1) penetrates from the first light-transmitting portion (12), it is penetrated through the second light-transmitting portion (21). The optical member (2).

In the foregoing embodiment, the fixing groove (132) of the first connecting portion (13) is a column-shaped groove structure, and a plurality of axially extending fixing ribs (133) are formed on the inner ring surface. The fixing ribs (133) are rib structures protruding from the peripheral surface of the fixing groove (132), and the inner diameter of the fixing ribs (133) and the second part of the optical member (2) The outer diameter of the connecting portion (22) forms a tightly fitting mechanism relationship, such that the fixing groove (132) of the first connecting portion (13) can pass through the fixing ribs (133) to enhance the number of the optical member (2) The joint of the two connecting portions (22) is mechanically coupled.

Figure 24 is a perspective exploded view showing a partial component of the lamp structure embodiment of the present wireless power transmission; and Figure 25 is a cross-sectional view showing the component shown in Figure 24 of the present invention. Referring to Figure 24 and Figure 25, and Referring again to FIG. 3, in various embodiments of the luminaire structure of the present inventive wireless power transmission, the transmitter (4) further includes an emitter member (44) having a bottom at the bottom of the emitter member (44). a bottom cover (45) and forming a transmitter receiving portion (46); and the transmitter receiving portion (46) is a hollow structure formed in the emitter member (44), and the transmitter housing portion (46) the bottom portion is closed by the bottom cover (45), and the power source (42) in the aforementioned transmitter (4), the resonant emission driving circuit (43), and the transmitting circuit (41) are disposed in the The transmitter housing (44) is in the transmitter housing (46).

The aforementioned emitter member (44) is disposed in the structure (100) such that the receiver (3) is within an effective range of the resonant energy of the emission of the emitter (4) and can receive the emitter (4) Resonant energy.

The power source (42) in the aforementioned transmitter (4) may be powered by an external power supply to supply the power required by the transmitter (4).

In the foregoing embodiment, the power source (42) of the transmitter (4) may be selected as an AC power line, and the power source (42) extends outward and is exposed outside the transmitter member (44) for electrical purposes. A mains system is connected to transfer AC power from the utility system into the transmitter (4) to provide for use of the transmitter (4).

In the foregoing luminaire structure of the present wireless power transmission, the receiver (3) and the transmitter (4) in each embodiment may conform to the Qi standard of the Wireless Power Consortium.

Therefore, the luminaire structure of the wireless power transmission provided by the present invention has been described in detail in the present invention, but the above description is only a preferred embodiment of the present creation, and the implementation of the creation cannot be limited. The scope. That is, all the changes and modifications made in accordance with the scope of this creation application are It should still be covered by the patents of this creation.

(100)‧‧‧ structures

(1)‧‧‧Light body

(11) ‧‧‧Lighting elements

(111)‧‧‧Lighting diode

(12)‧‧‧First light transmission department

(13) ‧ ‧ first connection

(131)‧‧‧ Columns

(132) ‧ ‧ fixed slot

(133)‧‧‧ Fixed ribs

(14) ‧‧‧Upper cover

(15) ‧ ‧ lower cover

(16) ‧‧‧ inner box

(161) ‧‧‧through hole column

(2) ‧‧‧Optical components

(21)‧‧‧Second light transmission department

(22) ‧‧‧Second connection

(221)‧‧‧ Connection groove

(23) ‧ ‧ first component

(24) ‧‧‧Second components

(25) ‧‧‧ accommodating slots

(3) ‧‧‧ Receiver

(31)‧‧‧ receiving circuit

(311)‧‧‧ receiving coil

(32)‧‧‧Rectifier circuit

(4) ‧‧‧transmitters

(41)‧‧‧transmit circuit

(411)‧‧‧transmit coil

(42) ‧‧‧Power supply

(43)‧‧‧Resonant emission drive circuit

(44) ‧‧‧transmitter components

(45) ‧‧‧ bottom cover

(46) ‧‧‧Transmitter Housing

1 is a perspective assembled view showing an embodiment of a luminaire structure of the present wireless power transmission; FIG. 2 is a perspective exploded view showing the embodiment of the present FIG. 1; FIG. 3 is a view showing an embodiment of the luminaire structure of the present wireless power transmission. FIG. 4 is a perspective view showing a partial combination of the components of the luminaire structure of the present invention; FIG. 5 is a cross-sectional view showing the combined state of the components shown in FIG. 4; FIG. FIG. 7 is a perspective exploded view showing a partial component of an embodiment of the luminaire structure of the present wireless power transmission; FIG. 8 is a perspective view showing the implementation of the luminaire structure of the present wireless power transmission. FIG. 9 is a perspective view showing a partial combination of the components of the luminaire structure of the present invention, and FIG. 10 is a cross-sectional view showing the combined state of the components shown in FIG. 9; FIG. A cross-sectional view showing the exploded state of the component shown in FIG. 9 is shown; FIG. 12 is a diagram showing the structure of the luminaire for the wireless power transmission of the present creation. A partial perspective view of a combination of elements of the embodiment; Figure 13 is a cross-sectional view showing the assembled state of the components shown in Figure 12; Figure 14 is a cross-sectional view showing the exploded state of the component shown in Figure 12; Figure 15 is a partial view showing the embodiment of the luminaire structure of the present wireless power transmission. FIG. 16 is a cross-sectional view showing the assembled state of the components shown in FIG. 15; FIG. 17 is a cross-sectional view showing the exploded state of the component shown in FIG. 15; FIG. 18 is a view showing the wireless power transmission of the present creation. 3 is an exploded perspective view of the components of the luminaire structure embodiment; FIG. 19 is a perspective view showing the components shown in FIG. 18; FIG. 20 is a cross-sectional view showing the components shown in FIG. 19; FIG. 22 is a perspective sectional view showing the components shown in FIG. 21; FIG. 23 is a cross-sectional view showing the components shown in FIG. 21; FIG. 24 is a view showing the creation of the components shown in FIG. A perspective exploded view of a partial component of a luminaire structure embodiment of a wireless power transmission; and FIG. 25 is a cross-sectional view of the component shown in FIG.

(1)‧‧‧Light body

(2) ‧‧‧Optical components

(4) ‧‧‧transmitters

(100)‧‧‧ structures

Claims (31)

A lamp structure for wireless power transmission, comprising: a lamp body comprising a light-emitting element and a first light-transmissive portion permeable to light, the light-emitting element being disposed inside the lamp body and corresponding to the lamp body a light transmitting portion; an optical member comprising a light transmissive second light transmitting portion and disposed on the lamp body; a receiver receiving the resonant energy of the wireless power type transmission and the resonant energy An electrical device that converts to electrical power and electrically connects the light-emitting elements in the lamp body and supplies the light-emitting elements; and an emitter that cooperates with the receiver and converts the electrical energy into an electrical energy of resonant energy And transmitting, by the wireless power type, the resonant energy; wherein the first light transmitting portion of the lamp body is a light transmitting material corresponding to a portion of the lamp body corresponding to the light emitting element; and the optical The second light transmitting portion of the member is a light transmitting structure formed by a portion of the optical member, and the second light transmitting portion corresponds to the first light transmitting portion of the lamp body. The luminaire structure of the wireless power transmission of claim 1, wherein the lamp system further comprises a first connecting portion; and the optical component further comprises a second connecting portion, the second transmitting portion is paired The first connecting portion of the lamp body is correspondingly coupled to the first connecting portion of the lamp body, and the mechanical coupling of the first connecting portion and the second connecting portion is detachable structure. The luminaire structure of the wireless power transmission of claim 2, wherein the first light transmitting portion of the lamp body is disposed at the first connecting portion, and the second light transmitting portion of the optical member is Provided at the second connection portion. The luminaire structure of the wireless power transmission of claim 3, wherein the first connecting portion further comprises a columnar body, the columnar system is formed at a top end portion of the lamp body, and the first light transmitting portion is Formed in the columnar body and corresponding to the light-emitting element; and the second connecting portion further includes a connecting groove corresponding to the columnar body engageable with the first connecting portion and formed on the optical member a bottom end portion, and the second light transmitting portion is formed at a top end portion of the second connecting portion. The luminaire structure of the wireless power transmission of claim 2, wherein the first light transmitting portion of the lamp body and the first connecting portion are formed on the upper portion of the lamp body, the first connecting portion further comprising a columnar body formed on a tip end portion of the lamp body, the first light transmitting portion is formed around the columnar body, and the light emitting element corresponds to the first light transmitting portion; and the optical member The second connecting portion further includes a connecting groove corresponding to the columnar body that can engage the first connecting portion and formed at the bottom end portion of the optical member, and the second light transmitting portion is formed around The first light transmitting portion corresponds to the second light transmitting portion in a state in which the first connecting portion and the second connecting portion are mechanically coupled to each other around the second connecting portion. The luminaire structure of the wireless power transmission according to claim 5, wherein the illuminating element in the lamp body comprises a plurality of illuminating diodes, and the illuminating diode systems surround the first connecting portion and It is disposed in the lamp body to correspond to the first light transmitting portion. The luminaire structure of the wireless power transmission of claim 2, wherein the receiver is disposed inside the lamp body and electrically connects the illuminating element. The luminaire structure of the wireless power transmission of claim 7, wherein the lamp body further comprises an upper cover and a lower cover, wherein the upper cover is disposed under the lamp cover a waterproof hollow box structure formed by the top end of the cover, wherein the first connecting portion and the first light transmitting portion are formed on the upper cover; and the light emitting element and the receiver are disposed in the upper cover and the lower cover, And the light emitting element corresponds to the first light transmitting portion in the upper cover. The luminaire structure of the wireless power transmission of claim 8, wherein the lamp system further comprises an inner box having a hollow structure of a through-hole column, the first connecting portion comprising a columnar shape And the second connecting portion includes a connecting groove, the inner box is disposed between the upper cover and the lower cover, the through-hole column extends upward from the top end of the inner box and positions the columnar body of the upper cover a centrally-through tubular structure is formed, and the light-emitting elements in the lamp body are correspondingly disposed in the inner box, and the light source of the light-emitting element passes through the through-hole column and penetrates from the first light-transmitting portion. Cover. The luminaire structure of the wireless power transmission of claim 8, further comprising a water tank structure, the lamp body, the optical member and the receiver system are disposed in the structure, and the transmitter system is configured At a position within the effective range at which the receiver receives the resonant energy of the transmitter. The luminaire structure of the wireless power transmission according to claim 2, wherein the second light transmitting portion forms an optical structure formed by a lens structure. The luminaire structure of the wireless power transmission of claim 11, wherein the second light transmitting portion is selected as a concentrating lens structure and an optical structure in an astigmatism lens structure. The luminaire structure of the wireless power transmission according to claim 2, wherein the second light transmitting portion of the optical member is a hollow portion that can transmit light. The luminaire structure for wireless power transmission according to claim 2, wherein the optical member is entirely composed of a light-transmitting material. The luminaire structure of the wireless power transmission of claim 2, wherein the optical component further comprises an upper casing and a lower casing, wherein the connecting grooves of the second connecting portion are respectively formed on the lower casing At the bottom of the body, the upper casing and the lower casing form a clamshell body. The luminaire structure of the wireless power transmission of claim 15, wherein the first connecting portion further comprises a columnar body formed on a top end portion of the lamp body, the first light transmitting portion Formed in the columnar body and corresponding to the light-emitting element; and the second connecting portion further includes a connecting groove formed at a bottom end portion of the optical member, the second light transmitting portion being formed on The second connecting portion has a top end portion, and the connecting groove forms a detachable mechanical coupling structure corresponding to the columnar body that can engage the first connecting portion. The luminaire structure of the wireless power transmission of claim 16, wherein the illuminating element is disposed in the column. The luminaire structure of the wireless power transmission of claim 17, wherein the upper casing and the lower casing form a clamshell body that is opened at a specific angle, and the second transmissive portion of the optical component It is formed by a space between the upper casing and the lower casing. The luminaire structure of the wireless power transmission of claim 18, wherein the upper casing and the lower casing are pivotally connected to each other. The luminaire structure of the wireless power transmission of claim 2, wherein the optical component further comprises a receiving groove formed in a groove-like structure at the top end of the optical member, and The second connecting portion is formed at the bottom of the optical member. The luminaire structure of the wireless power transmission according to claim 20, wherein the accommodating groove of the optical member is used for placing a plant or a decoration. The luminaire structure of the wireless power transmission of claim 20, wherein the first connecting portion further comprises a columnar body formed on a top end portion of the lamp body, the first light transmitting portion Formed in the columnar body and corresponding to the light-emitting element; and the second connecting portion further includes a connecting groove formed at a bottom end portion of the optical member, and the connecting groove is correspondingly engageable The columnar body of the first connecting portion forms a detachable mechanical coupling structure. The luminaire structure of the wireless power transmission of claim 2, wherein the first light transmitting portion of the lamp body and the first connecting portion are formed at a top end portion of the lamp body, the first connecting portion includes a fixing groove, the second connecting portion is a columnar body structure, the fixing groove is a concave structure recessed downward from a top end portion of the lamp body, and the first light transmitting portion is fixed to the first connecting portion In the bottom surface of the groove, the inner diameter of the fixing groove of the first connecting portion corresponds to the outer diameter of the second connecting portion of the optical member, the first light transmitting portion corresponds to the second light transmitting portion, and the first connection The fixing groove of the portion forms a mutual mechanical coupling mechanism with the second connecting portion. The luminaire structure of the wireless power transmission according to claim 23, wherein the fixing groove of the first connecting portion is a column-shaped groove structure and includes a plurality of fixing ribs extending in the axial direction And the rib knot protruding on the inner surface of the inner ring of the fixing groove The inner diameter formed by the fixing ribs forms a tight fit relationship with the outer diameter of the second connecting portion. The luminaire structure of the wireless power transmission according to claim 2, wherein the second light transmitting portion of the optical member has a glitter distribution therein. The luminaire structure of the wireless power transmission according to claim 2, wherein the second light transmitting portion of the optical member has a bubble distribution therein. The luminaire structure of the wireless power transmission of claim 1, wherein the receiver further comprises a receiving circuit and a rectifying circuit, the receiving circuit comprising at least one resonant circuit of the receiving coil, and the receiving circuit Corresponding to the transmitting circuit of the transmitter, the resonant signal emitted by the transmitting coil of the transmitting circuit can be received and converted into a power output, and the rectifier circuit is an electrical signal adjusting circuit and used to output the power of the receiving circuit The power form required to convert to the light-emitting element is adjusted. The luminaire structure of the wireless power transmission of claim 1, wherein the transmitter further comprises a power source, a resonant emission driving circuit and a transmitting circuit, and the power source is a power supply source and the transmitter is supplied The resonant emission driving circuit is an electrical signal conditioning circuit, and converts part of the power provided by the power source into an electrical signal output to the transmitting circuit, the transmitting circuit includes at least one transmitting coil, The transmitting coil converts the electrical signal generated by the resonant emission driving circuit into resonant energy and emits it outward. The luminaire structure of the wireless power transmission of claim 28, wherein the transmitter further comprises an emitter member having a bottom cover at the bottom and constituting a transmitter receiving portion; a transmitter housing portion in the transmitter member a hollow structure formed, and the bottom of the emitter receiving portion is closed by the bottom cover, and the power source, the resonant emission driving circuit and the transmitting circuit are disposed in the emitter receiving portion of the emitter member . A luminaire structure for wireless power transmission according to claim 29, further comprising a structure, the emitter member being disposed in a member of the structure, and the receiver being disposed at the emitter of the emitter Within the effective range of the resonant energy; and the lamp body, the optical member, and the receiver are disposed in the structure. The luminaire structure of the wireless power transmission of claim 29, wherein the power source of the transmitter is an AC power line, and the power source extends outward and is exposed outside the transmitter component, and is electrically connected. Power Systems.